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Pulsars : discoveries, functions, and formation /
| Clasificación: | Libro Electrónico |
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| Otros Autores: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Hauppauge, N.Y. :
Nova Science Publishers,
[2011]
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| Colección: | Space science, exploration and policies series.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- PULSARS DISCOVERIES, FUNCTIONS AND FORMATION; PULSARS DISCOVERIES, FUNCTIONS AND FORMATION ; CONTENTS ; PREFACE ; NATAL PULSAR KICKS FROM BACK REACTION OF GRAVITATIONAL WAVES; Abstract; 1. Introduction; 1.1. AstrophysicalHintsatGWs-drivenSpinningNSs; 2. PulsarSurveysandImplicationsforViableKickMechanisms; 3. GravitationalWavesinEinstein'sGeneralRelativity; 4. GravitationalWavesfromr-modesofRapidlyRotatingNSs; 4.1. SupernovaPhysicsandJust-BornNSs; 4.2. Ther-modesInstability; 5. Non-linearEvolutionofr-modesandGWsPower; 6.r-modeRadiationReactionandPulsarKicks; 6.1. RRFofr-modes:Mass-CurrentMultipoles.
- 6.2. Funnelingofther-modesGWsEmission7. PulsarKicks; 7.1. RecoilVelocity; 7.2. NatalPulsarPeriodsandGWsDampingTimescale; 8. Conclusions; 9. Appendix:MechanismsofSymmetryBreakinginNeutronStars; 9.1. SecularandDynamicalInstabilityofRotatingNSsinNewtonianGravity; 9.2. GeneralRelativisticSpontaneousSymmetryBreaking; Acknowledgments; References; CHANGES OF THE ORBITAL PERIODS OF THE BINARY PULSARS; Abstract; 1. Introduction; 2. ChangeoftheGravitationalPotentialintheUniverseandtheHubbleRedShift; 3. DeformationoftheOrbitsandIncreasingoftheOrbitalPeriodsofanyBinaries.
- 4. AnalysisofthePredicedandObservedValuesoftheChangeoftheOrbitalPeriodsofsomeBynaryPulsars5. MeasurementsoftheDistances, Times, andVelocities; 6. IncreasingoftheDistancetotheMoon, LunarOrbitalPeriod, andtheLengthofDay; 7. Conclusion; References; PULSAR DISTANCES AND THE ELECTRON DISTRIBUTION IN THE GALAXY; Abstract; 1. Introduction; 2. ElectronDistributionintheGalaxy; 3. Progenitors, StarFormationRegions, LuminosityandSpaceVelocities; 3.1. ProgenitorsofPulsarsandStarFormationRegions; 3.2. TheRadioLuminosityofPulsars; 3.3. SpaceVelocityofPulsars; 3.4. DeviationofStarFormationRegionsfromtheGalacticPlane.
- 4. PreparingthePulsarDistanceSample5. DispersionMeasure-DistanceRelations; 6. Conclusion; Acknowledgments; References; A LINK BETWEEN THE TYPICAL RADIO PULSARS AND MAGNETARS: MAGNETIC FIELD EVOLUTION THROUGH PULSAR GLITCHES; Abstract; 1. Introduction; 2. LongTermEvolutionofPulsarsCausedbyGlitches; 3. Conclusions; Acknowledgment; References; NEUTRINOSPHERES, RESONANT NEUTRINO OSCILLATIONS, AND PULSAR KICKS; Abstract; 1. Introduction; 2. StellarCollapse, ProtoneutronStars, andNeutrinospheres; 3. MomentumFlux; 4. NeutrinoOscillationsinaMagnetizedMedium; 5. NeutrinoMomentumAsymmetry; 6. SphericalEddingtonModel.
- 7. ConclusionAcknowledgments; References; RADIATION OF THE GRAVITATIONAL AND ELECTROMAGNETIC BINARY PULSARS; Abstract; 1. PulsarsinGeneral; 2. TheQuantumGravityEnergyLoosofaBinarySystem; 2.1. Introduction; 2.2. TheSourceTheoryFormulationoftheProblem; 2.3. ThePowerSpectralFormulainGeneral; 2.4. ThePowerSpectralFormulafortheBinarySystem; 2.5. TheQuantumEnergyLossoftheBinary; 3. ThePowerSpectalFormulaIvolvingRadiativeCorrections; 3.1. Introduction; 3.2. TheBinaryPowerSpectrumwithRadiativeCorrections; 4. ElectromagneticPulsar; 4.1. Introduction; 4.2. FormulationoftheElectromagneticProblem.